Real-Time On-Orbit Estimation Method for Microthruster Thrust Based on High-Precision Orbit Determination

Qinglin Yang,Hao Chang,Weijing Zhou,Angelo Cervone

doi:10.1155/2021/7733495

Qinglin Yang, Hao Chang + Show 2 more

Open Access

https://doi.org/10.1155/2021/7733495

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Abstract

In order to enable the micro-nanosatellites equipped with microthrusters to better complete various space applications, it is necessary to estimate the thrust performance of the microthrusters in real-time on orbit. This paper proposes a real-time on-orbit estimation method for microthrust based on high-precision orbit determination. By establishing a high-precision orbit dynamic model, the microthrust generated by a microthruster is modeled as a first-order Markov model, combined with a high-precision GNSS measuring device, and the satellite position is obtained through the cubature Kalman filter algorithm, velocity, and thrust real-time on-orbit estimates. For a thrust of 100 μN, the error accuracy of the on-orbit estimation is 3.98%; for a thrust of 500 μN, the error accuracy is 1.79%; for a thrust of 5 mN, the error accuracy can be reduced to 1.43%; and when the thrust is 500 μN, the accuracy of orbit determination is 16 cm. This method solves the problem that the traditional on-orbit thrust estimation method cannot perform real-time on-orbit estimation of microthrust on the order of hundreds of μN. The real-time on-orbit estimation of microthrust of micro-nanosatellites equipped with microthrusters of the order of hundreds of micronewtons or even several mN to tens of mN has certain reference value.

Highlights

At present, with the development of miniaturization technology and highly integrated technology, the development of micronanosatellites has become very hot
The micropropulsion system is inseparable from the evaluation of its propulsion performance
The orbital estimation method is mainly based on the function relationship between the change of the semimajor axis of the orbit and the thrust force to estimate the magnitude of the microthrust [3, 6]

Summary

Introduction

With the development of miniaturization technology and highly integrated technology, the development of micronanosatellites has become very hot. The orbital estimation method is mainly based on the function relationship between the change of the semimajor axis of the orbit and the thrust force to estimate the magnitude of the microthrust [3, 6]. This orbital estimation method based on the change of the orbital semimajor axis to determine the thrust is based on the postorbit. Aimed at the problems existing in the on-orbit estimation of microthruster thrust, a real-time on-orbit estimation method of microthruster thrust based on high-precision orbit determination is proposed in this paper, which solves the problem of real-time on-orbit estimation of microthruster with the magnitude of hundreds of μN. The high-precision GNSS measurement equipment is used to obtain the measurement value with noise, and the cubature Kalman filter algorithm is used to filter the state-space model to obtain the on-orbit estimation value including satellite position, velocity, and thrust of the microthruster

Real-Time On-Orbit Thrust Estimation Method for a Microthruster

Simulation

Findings

Conclusion